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Linde Kryotechnik AG
Philipp Treite
08.07.2014
Page 1
A Member of
The Linde Group KRYO TECHNIK
Superfluid Helium Refrigeration System.
Design, Project Execution and Commissioning
for Fermilab’s CMTF.
ICEC25-ICMC2014, Enschede, NL
July 9th, 2014
Linde Kryotechnik AG
Philipp Treite
09.07.2014
Page 2
A Member of
The Linde Group KRYO TECHNIK
Content
1 Location of the plant
2 Purpose and requirements of the plant
3 Process flow diagram
4 All-in-One Design
5 A step ahead – automated pumpdown
6 Performance data
7 Project Execution
8 Summary
Linde Kryotechnik AG
Philipp Treite
09.07.2014
Page 3
A Member of
The Linde Group KRYO TECHNIK
Location of the plant
Fermi National Accelerator Laboratory
Fermi National
Accelerator Laboratory,
Batavia, IL
CMTF – Cryomodule Test Facility
© Google maps
Linde Kryotechnik AG
Philipp Treite
09.07.2014
Page 4
A Member of
The Linde Group KRYO TECHNIK
Purpose and requirements of the plant
SRF testing
Purpose
• Provide cooling for the Cryomodule Test Facility (CMTF) to measure the
performance of superconducting radiofrequency (SRF) cryomodules
• SRF components are the basis for future high intensity accelerators such as
Project X, International Linear Collider and Muon Collider
© Fermilab © Fermilab
Linde Kryotechnik AG
Philipp Treite
09.07.2014
Page 5
A Member of
The Linde Group KRYO TECHNIK
Purpose and requirements of the plant
Requirement
• Flexible Helium Refrigeration system
which provides cooling to the SRF
cryomodules in a wide temperature
range
• Helium bath cooling from 1.8 to 2 K
or 4.5 K
• 40 – 80 K shield refrigeration
• 5 – 8 K shield refrigeration
• Liquefaction to the dewar as load
adjustment or stand-alone operation
• Automatic load adaption
• High availability
© Fermilab
Linde Kryotechnik AG
Philipp Treite
09.07.2014
Page 6
A Member of
The Linde Group KRYO TECHNIK
Process flow diagram
Customer system
Testbox
Linde Kryotechnik AG
Philipp Treite
09.07.2014
Page 7
A Member of
The Linde Group KRYO TECHNIK
All-in-One Design
4.5 K cycle and 2 K cycle in one Coldbox
4.5 K cycle
• Five gas bearing turbines arranged in three
turbine strings
• Redundant 80 K Adsorbers with bypass
• 20 K Adsorber with bypass
• LN2 precooling
• LHe-Seperator with Evaporator
2/1.8 K cycle
• Mixed cycle of three cold compressors in
series and five parallel warm vacuum pumps
• First-time use of special designed 2K plate fin
heat exchanger
• All components exposed to subatmospheric
conditions are guarded with helium
atmosphere
Linde Kryotechnik AG
Philipp Treite
09.07.2014
Page 8
A Member of
The Linde Group KRYO TECHNIK
All-in-One Design
4.5 K cycle and 2 K cycle in one Coldbox
Advantages
• Cost efficient and compact design: 21 t/29 m3
• Suspended coldbox in a steel structure, easy
accessibility
• Low space requirement to open coldbox
completely below the steel structure
• Compact coldbox design needed special
manufacturing procedure: "onion sequence“
Linde Kryotechnik AG
Philipp Treite
09.07.2014
Page 9
A Member of
The Linde Group KRYO TECHNIK
A step ahead – automated pumpdown
24 mbar achieved within 30 minutes with testbox setup
Warm vacuum compressor start
Cold compressor
start
Linde Kryotechnik AG
Philipp Treite
09.07.2014
Page 10
A Member of
The Linde Group KRYO TECHNIK
Performance data
All guaranteed values achieved
Acceptance Test 2.0 K Mode 1.8 K Mode Liquefaction
Cryostat 527 W 257 W -
5 to 8 K Shield 619 W 619 W 115 W
40 to 80 K Shield 6136 W 6136 W 720 W
Liquefaction - - 25.3 g/s
Guaranteed 2.0 K Mode 1.8 K Mode Liquefaction
Cryostat 500 W 250 W -
5 to 8 K Shield 600 W 600 W 100 W
40 to 80 K Shield 5000 W 5000 W 700 W
Liquefaction - - 16 g/s
Linde Kryotechnik AG
Philipp Treite
09.07.2014
Page 11
A Member of
The Linde Group KRYO TECHNIK
Project Execution
Challenging project scope split
Linde Cryogenics:
• Procurement
• CBX Manufacturing
• CBX Installation
• Manufacturing simultaneous to continuing engineering and design phase
• Progressive alignment between engineering and manufacturing workload &
workflow
Fermilab:
• Warm compressor system
• Buffer system
• Water chiller system
• Field piping and field cabling
• Steel construction
• Commissioning assistance
Linde Kryotechnik AG:
• Engineering
• Design
• Procurement
• Commissioning
Linde Kryotechnik AG
Philipp Treite
09.07.2014
Page 12
A Member of
The Linde Group KRYO TECHNIK
Project Execution
Commissioning milestones
Despite the complex scope split between Fermilab and Linde and the exceptionally
complex system, the commissioning time remained short.
The key point was the supportive and objective-oriented cooperation among the
three parties.
Linde Kryotechnik AG
Philipp Treite
09.07.2014
Page 13
A Member of
The Linde Group KRYO TECHNIK
Summary
3) Design for very high availability
• Three turbine strings, exchangeable during coldbox operation
• 3 stage cold compressor string, exchangeable during coldbox
operation
• Redundant 80 K adsorbers and 20 K adsorber with bypass valves
1) All-in-One Design
• 4.5 K and 2 K refrigeration cycle combined in one coldbox
• Highly compact and cost efficient design 2) Design for very flexible operation
• Refrigeration at 1.8 K, 2 K, or 4.5 K
• Liquefaction
• 5 to 8 K Shield and 40 to 80 K Shield load
• Total automatic load adaption for easy and safe plant operation
• Cold compressors completely automatically controlled, fast and smooth
pump down
Linde Kryotechnik AG
Philipp Treite
08.07.2014
Page 14
A Member of
The Linde Group KRYO TECHNIK
Thank you for your attention.